Use a triple integral to Önd the volume of the solid enclosed by the cylinder x 2 + z 2 = 4 and the planes y = 1 and y + z = 4.
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Answer:
Answer:the volume is V=12πStep-by-step explanation:using cylindrical coordinatesx= rsin θz= rcos θy=ythereforey+z=4 → y= 4-z = 4-r cos θalso from x²+z²=4 → -2≤x≤2 , -2≤z≤2therefore since y= 4-z → 6≤y≤2 → it does not overlap with the plane y=1 V=∫∫∫dV = ∫∫∫dxdydz = ∫∫∫rdθdrdy = ∫∫rdθdr [(y=4-r cos θ,y=1) ∫ dy] =∫∫[(4-rcosθ) - 1]rdθdr = ∫∫(3-rcosθ) rdθdr = ∫dθ [r=2,r=0] ∫(3r-r²cosθ) dr ∫ (3/2* 2²- 2³/3 cosθ) dθ =[θ=2π, θ=0] ∫ (6-8/3 cosθ) dθ = 2π*6 - 8/3 sin0 = 12πthusV= 12πto verify it, the volume should not be bigger than the volume if the cross section was a square and thus the volume enclosed would be:V = [(2-(-2)]² * (6-2) /2 + [(2-(-2)]² * (2-1) = 4³/2 + 4²*2 = 64 > 12π
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